Classification of underwater acoustic transients by artificial neural networks

The goal of the research described was to study the feasibility of using artificial neural networks to recognize (or classify) acoustic transient signals that have been propagated through an ocean environment, including surface and bottom effects. The networks were tested on signals propagated to 25...

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Bibliographic Details
Published in[1991 Proceedings] IEEE Conference on Neural Networks for Ocean Engineering pp. 275 - 281
Main Authors Greene, R.L., Field, R.L.
Format Conference Proceeding
LanguageEnglish
Published IEEE 1991
Subjects
Acoustic propagation
Acoustic testing
Artificial neural networks
Differential equations
Interference
Oceans
Sea surface
Time domain analysis
Underwater acoustics
Working environment noise
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Summary:The goal of the research described was to study the feasibility of using artificial neural networks to recognize (or classify) acoustic transient signals that have been propagated through an ocean environment, including surface and bottom effects. The networks were tested on signals propagated to 25 different receiver sites by the time-domain parabolic equation model. Despite the interference effects from surface and bottom reflections/refractions, the classification accuracy was about 90% in the noise-free case. Classification in the presence of noise is reduced. However, the redundancy provided by the multiple receivers in most cases allows the network to correctly classify all signals from sources on which it was trained. It shows a robustness in the presence of unknown signals not shown by the nearest-neighbor classifier.< >
ISBN:0780302052
9780780302051
DOI:10.1109/ICNN.1991.163362